Advantages of the unscavenged pre-chamber ignition system in turbocharged natural gas engines for automotive applications

In view of the increasing restrictions for CO2 mitigation, the evaluation of alternative fuels to ensure sustainability of transportation is becoming increasingly important. Since some of these alternatives can be refined from renewable sources, they are interesting from the perspective of both: the use of the current power-plants and the CO2 emission. In this sense, natural gas arises as an interesting propellant to substitute fossil fuels. Therefore, combining this fuel with specific combustion strategies can help to decrease the environmental footprint of transportation in the broadest sense. In this paper, an evaluation of the possible advantages of this combination has been conducted. The investigation has been carried out in a port fueled turbocharged spark-ignition engine, using compressed natural gas (CNG) and a passive pre-chamber ignition system. The effects of the CNG fuel properties on combustion have been analyzed and the global impact of using CNG for transportation has been appraised by means of the life cycle assessment. Results show that combustion of CNG refined by different renewable sources not only reduces the global CO2 emission but also can contribute to remove the existent pollution. In addition, they show an increase of the engine thermal efficiency when combining CNG and the pre-chamber ignition concept. (C) 2020 Elsevier Ltd. All rights reserved.

Automated summary

This paper evaluates the possible advantages of using compressed natural gas as a transportation fuel, showing that it can reduce global CO2 emissions and help remove pollution, while also increasing engine thermal efficiency.